xref: /freebsd/usr.bin/limits/limits.c (revision fcb560670601b2a4d87bb31d7531c8dcc37ee71b)
1 /*-
2  * Copyright (c) 1997 by
3  * David L. Nugent <davidn@blaze.net.au>
4  * All rights reserved.
5  *
6  * Redistribution and use in source and binary forms, with or without
7  * modification, is permitted provided that the following conditions
8  * are met:
9  * 1. Redistributions of source code must retain the above copyright
10  *    notice immediately at the beginning of the file, without modification,
11  *    this list of conditions, and the following disclaimer.
12  * 2. Redistributions in binary form must reproduce the above copyright
13  *    notice, this list of conditions and the following disclaimer in the
14  *    documentation and/or other materials provided with the distribution.
15  * 3. This work was done expressly for inclusion into FreeBSD.  Other use
16  *    is permitted provided this notation is included.
17  * 4. Absolutely no warranty of function or purpose is made by the authors.
18  * 5. Modifications may be freely made to this file providing the above
19  *    conditions are met.
20  *
21  * Display/change(+runprogram)/eval resource limits.
22  */
23 
24 #include <sys/cdefs.h>
25 __FBSDID("$FreeBSD$");
26 
27 #include <err.h>
28 #include <stdio.h>
29 #include <string.h>
30 #include <sys/types.h>
31 #include <sys/stat.h>
32 #include <sys/sysctl.h>
33 #include <sys/user.h>
34 #include <sys/param.h>
35 #include <stdlib.h>
36 #include <unistd.h>
37 #include <stdarg.h>
38 #include <stdint.h>
39 #include <ctype.h>
40 #include <errno.h>
41 #include <pwd.h>
42 #include <login_cap.h>
43 #include <sys/time.h>
44 #include <sys/resource.h>
45 
46 enum
47 {
48     SH_NONE,
49     SH_SH,      /* sh */
50     SH_CSH,     /* csh */
51     SH_BASH,    /* gnu bash */
52     SH_TCSH,    /* tcsh */
53     SH_KSH,     /* (pd)ksh */
54     SH_ZSH,     /* zsh */
55     SH_RC,      /* rc or es */
56     SH_NUMBER
57 };
58 
59 
60 /* eval emitter for popular shells.
61  * Why aren't there any standards here? Most shells support either
62  * the csh 'limit' or sh 'ulimit' command, but each varies just
63  * enough that they aren't very compatible from one to the other.
64  */
65 static struct {
66     const char * name;	    /* Name of shell */
67     const char * inf;	    /* Name used for 'unlimited' resource */
68     const char * cmd;	    /* Intro text */
69     const char * hard;	    /* Hard limit text */
70     const char * soft;	    /* Soft limit text */
71     const char * both;	    /* Hard+Soft limit text */
72     struct {
73 	const char * pfx;
74 	const char * sfx;
75 	int divisor;
76     } lprm[RLIM_NLIMITS];
77 } shellparm[] =
78 {
79     { "", "infinity", "Resource limits%s%s:\n", "-max", "-cur", "",
80       {
81 	  { "  cputime%-4s          %8s", " secs\n",  1    },
82 	  { "  filesize%-4s         %8s", " kB\n",    1024 },
83 	  { "  datasize%-4s         %8s", " kB\n",    1024 },
84 	  { "  stacksize%-4s        %8s", " kB\n",    1024 },
85 	  { "  coredumpsize%-4s     %8s", " kB\n",    1024 },
86 	  { "  memoryuse%-4s        %8s", " kB\n",    1024 },
87 	  { "  memorylocked%-4s     %8s", " kB\n",    1024 },
88 	  { "  maxprocesses%-4s     %8s", "\n",       1    },
89 	  { "  openfiles%-4s        %8s", "\n",       1    },
90 	  { "  sbsize%-4s           %8s", " bytes\n", 1    },
91 	  { "  vmemoryuse%-4s       %8s", " kB\n",    1024 },
92 	  { "  pseudo-terminals%-4s %8s", "\n",       1    },
93 	  { "  swapuse%-4s          %8s", " kB\n",    1024 },
94 	  { "  kqueues%-4s          %8s", "\n",       1    },
95       }
96     },
97     { "sh", "unlimited", "", " -H", " -S", "",
98       {
99 	  { "ulimit%s -t %s", ";\n",  1    },
100 	  { "ulimit%s -f %s", ";\n",  512  },
101 	  { "ulimit%s -d %s", ";\n",  1024 },
102 	  { "ulimit%s -s %s", ";\n",  1024 },
103 	  { "ulimit%s -c %s", ";\n",  512  },
104 	  { "ulimit%s -m %s", ";\n",  1024 },
105 	  { "ulimit%s -l %s", ";\n",  1024 },
106 	  { "ulimit%s -u %s", ";\n",  1    },
107 	  { "ulimit%s -n %s", ";\n",  1    },
108 	  { "ulimit%s -b %s", ";\n",  1    },
109 	  { "ulimit%s -v %s", ";\n",  1024 },
110 	  { "ulimit%s -p %s", ";\n",  1    },
111 	  { "ulimit%s -w %s", ";\n",  1024 },
112 	  { "ulimit%s -k %s", ";\n",  1    },
113       }
114     },
115     { "csh", "unlimited", "", " -h", "", NULL,
116       {
117 	  { "limit%s cputime %s",         ";\n",  1    },
118 	  { "limit%s filesize %s",        ";\n",  1024 },
119 	  { "limit%s datasize %s",        ";\n",  1024 },
120 	  { "limit%s stacksize %s",       ";\n",  1024 },
121 	  { "limit%s coredumpsize %s",    ";\n",  1024 },
122 	  { "limit%s memoryuse %s",       ";\n",  1024 },
123 	  { "limit%s memorylocked %s",    ";\n",  1024 },
124 	  { "limit%s maxproc %s",         ";\n",  1    },
125 	  { "limit%s openfiles %s",       ";\n",  1    },
126 	  { "limit%s sbsize %s",          ";\n",  1    },
127 	  { "limit%s vmemoryuse %s",      ";\n",  1024 },
128 	  { "limit%s pseudoterminals %s", ";\n",  1    },
129 	  { "limit%s swapsize %s",        ";\n",  1024 },
130 	  { "limit%s kqueues %s",         ";\n",  1    },
131       }
132     },
133     { "bash|bash2", "unlimited", "", " -H", " -S", "",
134       {
135 	  { "ulimit%s -t %s", ";\n",  1    },
136 	  { "ulimit%s -f %s", ";\n",  1024 },
137 	  { "ulimit%s -d %s", ";\n",  1024 },
138 	  { "ulimit%s -s %s", ";\n",  1024 },
139 	  { "ulimit%s -c %s", ";\n",  1024 },
140 	  { "ulimit%s -m %s", ";\n",  1024 },
141 	  { "ulimit%s -l %s", ";\n",  1024 },
142 	  { "ulimit%s -u %s", ";\n",  1    },
143 	  { "ulimit%s -n %s", ";\n",  1    },
144 	  { "ulimit%s -b %s", ";\n",  1    },
145 	  { "ulimit%s -v %s", ";\n",  1024 },
146 	  { "ulimit%s -p %s", ";\n",  1    },
147 	  { "ulimit%s -w %s", ";\n",  1024 }
148       }
149     },
150     { "tcsh", "unlimited", "", " -h", "", NULL,
151       {
152 	  { "limit%s cputime %s",         ";\n",  1    },
153 	  { "limit%s filesize %s",        ";\n",  1024 },
154 	  { "limit%s datasize %s",        ";\n",  1024 },
155 	  { "limit%s stacksize %s",       ";\n",  1024 },
156 	  { "limit%s coredumpsize %s",    ";\n",  1024 },
157 	  { "limit%s memoryuse %s",       ";\n",  1024 },
158 	  { "limit%s memorylocked %s",    ";\n",  1024 },
159 	  { "limit%s maxproc %s",         ";\n",  1    },
160 	  { "limit%s descriptors %s",     ";\n",  1    },
161 	  { "limit%s sbsize %s",          ";\n",  1    },
162 	  { "limit%s vmemoryuse %s",      ";\n",  1024 },
163 	  { "limit%s pseudoterminals %s", ";\n",  1    },
164 	  { "limit%s swapsize %s",        ";\n",  1024 },
165 	  { "limit%s kqueues %s",         ";\n",  1    },
166       }
167     },
168     { "ksh|pdksh", "unlimited", "", " -H", " -S", "",
169       {
170 	  { "ulimit%s -t %s", ";\n",  1    },
171 	  { "ulimit%s -f %s", ";\n",  512  },
172 	  { "ulimit%s -d %s", ";\n",  1024 },
173 	  { "ulimit%s -s %s", ";\n",  1024 },
174 	  { "ulimit%s -c %s", ";\n",  512  },
175 	  { "ulimit%s -m %s", ";\n",  1024 },
176 	  { "ulimit%s -l %s", ";\n",  1024 },
177 	  { "ulimit%s -p %s", ";\n",  1    },
178 	  { "ulimit%s -n %s", ";\n",  1    },
179 	  { "ulimit%s -b %s", ";\n",  1    },
180 	  { "ulimit%s -v %s", ";\n",  1024 },
181 	  { "ulimit%s -p %s", ";\n",  1    },
182 	  { "ulimit%s -w %s", ";\n",  1024 }
183       }
184     },
185     { "zsh", "unlimited", "", " -H", " -S", "",
186       {
187 	  { "ulimit%s -t %s", ";\n",  1    },
188 	  { "ulimit%s -f %s", ";\n",  512  },
189 	  { "ulimit%s -d %s", ";\n",  1024 },
190 	  { "ulimit%s -s %s", ";\n",  1024 },
191 	  { "ulimit%s -c %s", ";\n",  512  },
192 	  { "ulimit%s -m %s", ";\n",  1024 },
193 	  { "ulimit%s -l %s", ";\n",  1024 },
194 	  { "ulimit%s -u %s", ";\n",  1    },
195 	  { "ulimit%s -n %s", ";\n",  1    },
196 	  { "ulimit%s -b %s", ";\n",  1    },
197 	  { "ulimit%s -v %s", ";\n",  1024 },
198 	  { "ulimit%s -p %s", ";\n",  1    },
199 	  { "ulimit%s -w %s", ";\n",  1024 }
200       }
201     },
202     { "rc|es", "unlimited", "", " -h", "", NULL,
203       {
204 	  { "limit%s cputime %s",         ";\n",  1    },
205 	  { "limit%s filesize %s",        ";\n",  1024 },
206 	  { "limit%s datasize %s",        ";\n",  1024 },
207 	  { "limit%s stacksize %s",       ";\n",  1024 },
208 	  { "limit%s coredumpsize %s",    ";\n",  1024 },
209 	  { "limit%s memoryuse %s",       ";\n",  1024 },
210 	  { "limit%s lockedmemory %s",    ";\n",  1024 },
211 	  { "limit%s processes %s",       ";\n",  1    },
212 	  { "limit%s descriptors %s",     ";\n",  1    },
213 	  { "limit%s sbsize %s",          ";\n",  1    },
214 	  { "limit%s vmemoryuse %s",      ";\n",  1024 },
215 	  { "limit%s pseudoterminals %s", ";\n",  1    },
216 	  { "limit%s swapuse %s",         ";\n",  1024 }
217       }
218     },
219     { NULL, NULL, NULL, NULL, NULL, NULL,
220       { }
221     }
222 };
223 
224 static struct {
225     const char * cap;
226     rlim_t (*func)(login_cap_t *, const char *, rlim_t, rlim_t);
227 } resources[RLIM_NLIMITS] = {
228     { "cputime",	login_getcaptime },
229     { "filesize",	login_getcapsize },
230     { "datasize",	login_getcapsize },
231     { "stacksize",	login_getcapsize },
232     { "coredumpsize",	login_getcapsize },
233     { "memoryuse",	login_getcapsize },
234     { "memorylocked",	login_getcapsize },
235     { "maxproc",	login_getcapnum  },
236     { "openfiles",	login_getcapnum  },
237     { "sbsize",		login_getcapsize },
238     { "vmemoryuse",	login_getcapsize },
239     { "pseudoterminals",login_getcapnum  },
240     { "swapuse",	login_getcapsize },
241     { "kqueues",	login_getcapnum  },
242 };
243 
244 /*
245  * One letter for each resource levels.
246  * NOTE: There is a dependency on the corresponding
247  * letter index being equal to the resource number.
248  * If sys/resource.h defines are changed, this needs
249  * to be modified accordingly!
250  */
251 
252 #define RCS_STRING  "tfdscmlunbvpwk"
253 
254 static rlim_t resource_num(int which, int ch, const char *str);
255 static void usage(void);
256 static int getshelltype(void);
257 static void print_limit(rlim_t limit, unsigned divisor, const char *inf,
258 			const char *pfx, const char *sfx, const char *which);
259 static void getrlimit_proc(pid_t pid, int resource, struct rlimit *rlp);
260 static void setrlimit_proc(pid_t pid, int resource, const struct rlimit *rlp);
261 extern char **environ;
262 
263 static const char rcs_string[] = RCS_STRING;
264 
265 int
266 main(int argc, char *argv[])
267 {
268     char *p, *cls = NULL;
269     char *cleanenv[1];
270     struct passwd * pwd = NULL;
271     int rcswhich, shelltype;
272     int i, num_limits = 0;
273     int ch, doeval = 0, doall = 0;
274     int rtrn, setproc;
275     login_cap_t * lc = NULL;
276     enum { ANY=0, SOFT=1, HARD=2, BOTH=3, DISPLAYONLY=4 } type = ANY;
277     enum { RCSUNKNOWN=0, RCSSET=1, RCSSEL=2 } todo = RCSUNKNOWN;
278     int which_limits[RLIM_NLIMITS];
279     rlim_t set_limits[RLIM_NLIMITS];
280     struct rlimit limits[RLIM_NLIMITS];
281     pid_t pid;
282 
283     /* init resource tables */
284     for (i = 0; i < RLIM_NLIMITS; i++) {
285 	which_limits[i] = 0; /* Don't set/display any */
286 	set_limits[i] = RLIM_INFINITY;
287     }
288 
289     pid = -1;
290     optarg = NULL;
291     while ((ch = getopt(argc, argv,
292       ":EeC:U:BSHP:ab:c:d:f:l:m:n:s:t:u:v:p:w:k:")) != -1) {
293 	switch(ch) {
294 	case 'a':
295 	    doall = 1;
296 	    break;
297 	case 'E':
298 	    environ = cleanenv;
299 	    cleanenv[0] = NULL;
300 	    break;
301 	case 'e':
302 	    doeval = 1;
303 	    break;
304 	case 'C':
305 	    cls = optarg;
306 	    break;
307 	case 'U':
308 	    if ((pwd = getpwnam(optarg)) == NULL) {
309 		if (!isdigit(*optarg) ||
310 		    (pwd = getpwuid(atoi(optarg))) == NULL) {
311 		    warnx("invalid user `%s'", optarg);
312 		    usage();
313 		}
314 	    }
315 	    break;
316 	case 'H':
317 	    type = HARD;
318 	    break;
319 	case 'S':
320 	    type = SOFT;
321 	    break;
322 	case 'B':
323 	    type = SOFT|HARD;
324 	    break;
325 	case 'P':
326 	    if (!isdigit(*optarg) || (pid = atoi(optarg)) < 0) {
327 		warnx("invalid pid `%s'", optarg);
328 		usage();
329 	    }
330 	    break;
331 	default:
332 	case ':': /* Without arg */
333 	    if ((p = strchr(rcs_string, optopt)) != NULL) {
334 		int rcswhich1 = p - rcs_string;
335 		if (optarg && *optarg == '-') { /* 'arg' is actually a switch */
336 		    --optind;		/* back one arg, and make arg NULL */
337 		    optarg = NULL;
338 		}
339 		todo = optarg == NULL ? RCSSEL : RCSSET;
340 		if (type == ANY)
341 		    type = BOTH;
342 		which_limits[rcswhich1] = optarg ? type : DISPLAYONLY;
343 		set_limits[rcswhich1] = resource_num(rcswhich1, optopt, optarg);
344 		num_limits++;
345 		break;
346 	    }
347 	    /* FALLTHRU */
348 	case '?':
349 	    usage();
350 	}
351 	optarg = NULL;
352     }
353 
354     if (pid != -1) {
355 	if (cls != NULL) {
356 	    warnx("-C cannot be used with -P option");
357 	    usage();
358 	}
359 	if (pwd != NULL) {
360 	    warnx("-U cannot be used with -P option");
361 	    usage();
362 	}
363     }
364 
365     /* Get current resource values */
366     setproc = 0;
367     for (i = 0; i < RLIM_NLIMITS; i++) {
368 	if (pid == -1) {
369 	    getrlimit(i, &limits[i]);
370 	} else if (doall || num_limits == 0) {
371 	    getrlimit_proc(pid, i, &limits[i]);
372 	} else if (which_limits[i] != 0) {
373 	    getrlimit_proc(pid, i, &limits[i]);
374 	    setproc = 1;
375 	}
376     }
377 
378     /* If user was specified, get class from that */
379     if (pwd != NULL)
380 	lc = login_getpwclass(pwd);
381     else if (cls != NULL && *cls != '\0') {
382 	lc = login_getclassbyname(cls, NULL);
383 	if (lc == NULL || strcmp(cls, lc->lc_class) != 0)
384 	    fprintf(stderr, "login class '%s' non-existent, using %s\n",
385 		    cls, lc?lc->lc_class:"current settings");
386     }
387 
388     /* If we have a login class, update resource table from that */
389     if (lc != NULL) {
390 	for (rcswhich = 0; rcswhich < RLIM_NLIMITS; rcswhich++) {
391 	    char str[40];
392 	    rlim_t val;
393 
394 	    /* current value overridden by resourcename or resourcename-cur */
395 	    sprintf(str, "%s-cur", resources[rcswhich].cap);
396 	    val = resources[rcswhich].func(lc, resources[rcswhich].cap, limits[rcswhich].rlim_cur, limits[rcswhich].rlim_cur);
397 	    limits[rcswhich].rlim_cur = resources[rcswhich].func(lc, str, val, val);
398 	    /* maximum value overridden by resourcename or resourcename-max */
399 	    sprintf(str, "%s-max", resources[rcswhich].cap);
400 	    val = resources[rcswhich].func(lc, resources[rcswhich].cap, limits[rcswhich].rlim_max, limits[rcswhich].rlim_max);
401 	    limits[rcswhich].rlim_max = resources[rcswhich].func(lc, str, val, val);
402 	}
403     }
404 
405     /* now, let's determine what we wish to do with all this */
406 
407     argv += optind;
408 
409     /* If we're setting limits or doing an eval (ie. we're not just
410      * displaying), then check that hard limits are not lower than
411      * soft limits, and force rasing the hard limit if we need to if
412      * we are raising the soft limit, or lower the soft limit if we
413      * are lowering the hard limit.
414      */
415     if ((*argv || doeval) && getuid() == 0) {
416 
417 	for (rcswhich = 0; rcswhich < RLIM_NLIMITS; rcswhich++) {
418 	    if (limits[rcswhich].rlim_max != RLIM_INFINITY) {
419 		if (limits[rcswhich].rlim_cur == RLIM_INFINITY) {
420 		    limits[rcswhich].rlim_max = RLIM_INFINITY;
421 		    which_limits[rcswhich] |= HARD;
422 		} else if (limits[rcswhich].rlim_cur > limits[rcswhich].rlim_max) {
423 		    if (which_limits[rcswhich] == SOFT) {
424 			limits[rcswhich].rlim_max = limits[rcswhich].rlim_cur;
425 			which_limits[rcswhich] |= HARD;
426 		    }  else if (which_limits[rcswhich] == HARD) {
427 			limits[rcswhich].rlim_cur = limits[rcswhich].rlim_max;
428 			which_limits[rcswhich] |= SOFT;
429 		    } else {
430 			/* else.. if we're specifically setting both to
431 			 * silly values, then let it error out.
432 			 */
433 		    }
434 		}
435 	    }
436 	}
437     }
438 
439     /* See if we've overridden anything specific on the command line */
440     if (num_limits && todo == RCSSET) {
441 	for (rcswhich = 0; rcswhich < RLIM_NLIMITS; rcswhich++) {
442 	    if (which_limits[rcswhich] & HARD)
443 		limits[rcswhich].rlim_max = set_limits[rcswhich];
444 	    if (which_limits[rcswhich] & SOFT)
445 		limits[rcswhich].rlim_cur = set_limits[rcswhich];
446 	}
447     }
448 
449     /* If *argv is not NULL, then we are being asked to
450      * (perhaps) set environment variables and run a program
451      */
452     if (*argv) {
453 	if (doeval) {
454 	    warnx("-e cannot be used with `cmd' option");
455 	    usage();
456 	}
457 	if (pid != -1) {
458 	    warnx("-P cannot be used with `cmd' option");
459 	    usage();
460 	}
461 
462 	login_close(lc);
463 
464 	/* set leading environment variables, like eval(1) */
465 	while (*argv && (p = strchr(*argv, '='))) {
466 		*p = '\0';
467 		rtrn = setenv(*argv++, p + 1, 1);
468 		*p = '=';
469 		if (rtrn == -1)
470 			err(EXIT_FAILURE, "setenv %s", *argv);
471 	}
472 
473 	/* Set limits */
474 	for (rcswhich = 0; rcswhich < RLIM_NLIMITS; rcswhich++) {
475 	    if (doall || num_limits == 0 || which_limits[rcswhich] != 0)
476 		if (setrlimit(rcswhich, &limits[rcswhich]) == -1)
477 		    err(1, "setrlimit %s", resources[rcswhich].cap);
478 	}
479 
480 	if (*argv == NULL)
481 	    usage();
482 
483 	execvp(*argv, argv);
484 	err(1, "%s", *argv);
485     }
486 
487     if (setproc) {
488 	for (rcswhich = 0; rcswhich < RLIM_NLIMITS; rcswhich++) {
489 	    if (which_limits[rcswhich] != 0)
490 		setrlimit_proc(pid, rcswhich, &limits[rcswhich]);
491 	}
492 	exit(EXIT_SUCCESS);
493     }
494 
495     shelltype = doeval ? getshelltype() : SH_NONE;
496 
497     if (type == ANY) /* Default to soft limits */
498 	type = SOFT;
499 
500     /* Display limits */
501     printf(shellparm[shelltype].cmd,
502 	   lc ? " for class " : " (current)",
503 	   lc ? lc->lc_class : "");
504 
505     for (rcswhich = 0; rcswhich < RLIM_NLIMITS; rcswhich++) {
506 	if (doall || num_limits == 0 || which_limits[rcswhich] != 0) {
507 	    if (which_limits[rcswhich] == ANY || which_limits[rcswhich])
508 		which_limits[rcswhich] = type;
509 	    if (shellparm[shelltype].lprm[rcswhich].pfx) {
510 		if (shellparm[shelltype].both && limits[rcswhich].rlim_cur == limits[rcswhich].rlim_max) {
511 		    print_limit(limits[rcswhich].rlim_max,
512 				shellparm[shelltype].lprm[rcswhich].divisor,
513 				shellparm[shelltype].inf,
514 				shellparm[shelltype].lprm[rcswhich].pfx,
515 				shellparm[shelltype].lprm[rcswhich].sfx,
516 				shellparm[shelltype].both);
517 		} else {
518 		    if (which_limits[rcswhich] & HARD) {
519 			print_limit(limits[rcswhich].rlim_max,
520 				    shellparm[shelltype].lprm[rcswhich].divisor,
521 				    shellparm[shelltype].inf,
522 				    shellparm[shelltype].lprm[rcswhich].pfx,
523 				    shellparm[shelltype].lprm[rcswhich].sfx,
524 				    shellparm[shelltype].hard);
525 		    }
526 		    if (which_limits[rcswhich] & SOFT) {
527 			print_limit(limits[rcswhich].rlim_cur,
528 				    shellparm[shelltype].lprm[rcswhich].divisor,
529 				    shellparm[shelltype].inf,
530 				    shellparm[shelltype].lprm[rcswhich].pfx,
531 				    shellparm[shelltype].lprm[rcswhich].sfx,
532 				    shellparm[shelltype].soft);
533 		    }
534 		}
535 	    }
536 	}
537     }
538 
539     login_close(lc);
540     exit(EXIT_SUCCESS);
541 }
542 
543 
544 static void
545 usage(void)
546 {
547     (void)fprintf(stderr,
548 	"usage: limits [-C class|-P pid|-U user] [-eaSHBE] "
549 	"[-bcdflmnstuvpwk [val]] [[name=val ...] cmd]\n");
550     exit(EXIT_FAILURE);
551 }
552 
553 static void
554 print_limit(rlim_t limit, unsigned divisor, const char * inf, const char * pfx, const char * sfx, const char * which)
555 {
556     char numbr[64];
557 
558     if (limit == RLIM_INFINITY)
559 	strcpy(numbr, inf);
560     else
561 	sprintf(numbr, "%jd", (intmax_t)((limit + divisor/2) / divisor));
562     printf(pfx, which, numbr);
563     printf(sfx, which);
564 
565 }
566 
567 
568 static rlim_t
569 resource_num(int which, int ch, const char *str)
570 {
571     rlim_t res = RLIM_INFINITY;
572 
573     if (str != NULL &&
574 	!(strcasecmp(str, "inf") == 0 ||
575 	  strcasecmp(str, "infinity") == 0 ||
576 	  strcasecmp(str, "unlimit") == 0 ||
577 	  strcasecmp(str, "unlimited") == 0)) {
578 	const char * s = str;
579 	char *e;
580 
581 	switch (which) {
582 	case RLIMIT_CPU:	/* time values */
583 	    errno = 0;
584 	    res = 0;
585 	    while (*s) {
586 		rlim_t tim = strtoq(s, &e, 0);
587 		if (e == NULL || e == s || errno)
588 		    break;
589 		switch (*e++) {
590 		case 0:		   	/* end of string */
591 		    e--;
592 		default:
593 		case 's': case 'S':	/* seconds */
594 		    break;
595 		case 'm': case 'M':	/* minutes */
596 		    tim *= 60L;
597 		    break;
598 		case 'h': case 'H':	/* hours */
599 		    tim *= (60L * 60L);
600 		    break;
601 		case 'd': case 'D':	/* days */
602 		    tim *= (60L * 60L * 24L);
603 		    break;
604 		case 'w': case 'W':	/* weeks */
605 		    tim *= (60L * 60L * 24L * 7L);
606 		case 'y': case 'Y':	/* Years */
607 		    tim *= (60L * 60L * 24L * 365L);
608 		}
609 		s = e;
610 		res += tim;
611 	    }
612 	    break;
613 	case RLIMIT_FSIZE: /* Size values */
614 	case RLIMIT_DATA:
615 	case RLIMIT_STACK:
616 	case RLIMIT_CORE:
617 	case RLIMIT_RSS:
618 	case RLIMIT_MEMLOCK:
619 	case RLIMIT_SBSIZE:
620 	case RLIMIT_VMEM:
621 	case RLIMIT_SWAP:
622 	    errno = 0;
623 	    res = 0;
624 	    while (*s) {
625 		rlim_t mult, tim = strtoq(s, &e, 0);
626 		if (e == NULL || e == s || errno)
627 		    break;
628 		switch (*e++) {
629 		case 0:	/* end of string */
630 		    e--;
631 		default:
632 		    mult = 1;
633 		    break;
634 		case 'b': case 'B':	/* 512-byte blocks */
635 		    mult = 512;
636 		    break;
637 		case 'k': case 'K':	/* 1024-byte Kilobytes */
638 		    mult = 1024;
639 		    break;
640 		case 'm': case 'M':	/* 1024-k kbytes */
641 		    mult = 1024 * 1024;
642 		    break;
643 		case 'g': case 'G':	/* 1Gbyte */
644 		    mult = 1024 * 1024 * 1024;
645 		    break;
646 		case 't': case 'T':	/* 1TBte */
647 		    mult = 1024LL * 1024LL * 1024LL * 1024LL;
648 		    break;
649 		}
650 		s = e;
651 		res += (tim * mult);
652 	    }
653 	    break;
654 	case RLIMIT_NPROC:
655 	case RLIMIT_NOFILE:
656 	case RLIMIT_NPTS:
657 	case RLIMIT_KQUEUES:
658 	    res = strtoq(s, &e, 0);
659 	    s = e;
660 	    break;
661 	}
662 	if (*s) {
663 	    warnx("invalid value -%c `%s'", ch, str);
664 	    usage();
665 	}
666     }
667     return res;
668 }
669 
670 
671 static int
672 getshellbyname(const char * shell)
673 {
674     int i;
675     const char * q;
676     const char * p = strrchr(shell, '/');
677 
678     p = p ? p+1 : shell;
679     for (i = 0; (q = shellparm[i].name) != NULL; i++) {
680 	while (*q) {
681 	    int j = strcspn(q, "|");
682 
683 	    if (j == 0)
684 		break;
685 	    if (strncmp(p, q, j) == 0)
686 		return i;
687 	    if (*(q += j))
688 		++q;
689 	}
690     }
691     return SH_SH;
692 }
693 
694 
695 /*
696  * Determine the type of shell our parent process is
697  * This is quite tricky, not 100% reliable and probably
698  * not nearly as thorough as it should be. Basically, this
699  * is a "best guess" only, but hopefully will work in
700  * most cases.
701  */
702 
703 static int
704 getshelltype(void)
705 {
706     pid_t ppid = getppid();
707 
708     if (ppid != 1) {
709 	struct kinfo_proc kp;
710 	struct stat st;
711 	char path[MAXPATHLEN];
712 	char * shell = getenv("SHELL");
713 	int mib[4];
714 	size_t len;
715 
716 	mib[0] = CTL_KERN;
717 	mib[1] = KERN_PROC;
718 	mib[3] = ppid;
719 
720 	if (shell != NULL && stat(shell, &st) != -1) {
721 	    struct stat st1;
722 
723 	    mib[2] = KERN_PROC_PATHNAME;
724 	    len = sizeof(path);
725 	    if (sysctl(mib, 4, path, &len, NULL, 0) != -1) {
726 		/* $SHELL is actual shell? */
727 		if (stat(path, &st1) != -1 && memcmp(&st, &st1, sizeof st) == 0)
728 		    return getshellbyname(shell);
729 	    }
730 	}
731 	mib[2] = KERN_PROC_PID;
732 	len = sizeof(kp);
733 	if (sysctl(mib, 4, &kp, &len, NULL, 0) != -1)
734 	    return getshellbyname(kp.ki_comm);
735     }
736     return SH_SH;
737 }
738 
739 static void
740 getrlimit_proc(pid_t pid, int resource, struct rlimit *rlp)
741 {
742     int error;
743     int name[5];
744     size_t len;
745 
746     name[0] = CTL_KERN;
747     name[1] = KERN_PROC;
748     name[2] = KERN_PROC_RLIMIT;
749     name[3] = pid;
750     name[4] = resource;
751     len = sizeof(*rlp);
752     error = sysctl(name, 5, rlp, &len, NULL, 0);
753     if (error == -1)
754 	err(EXIT_FAILURE, "sysctl: kern.proc.rlimit: %d", pid);
755     if (len != sizeof(*rlp))
756 	errx(EXIT_FAILURE, "sysctl() returns wrong size");
757 }
758 
759 static void
760 setrlimit_proc(pid_t pid, int resource, const struct rlimit *rlp)
761 {
762     int error;
763     int name[5];
764 
765     name[0] = CTL_KERN;
766     name[1] = KERN_PROC;
767     name[2] = KERN_PROC_RLIMIT;
768     name[3] = pid;
769     name[4] = resource;
770     error = sysctl(name, 5, NULL, 0, rlp, sizeof(*rlp));
771     if (error == -1)
772 	err(EXIT_FAILURE, "sysctl: kern.proc.rlimit: %d", pid);
773 }
774